Clothes treating apparatus

ABSTRACT

A clothes treating apparatus includes a cabinet including first and second lateral panels facing each other, and upper and lower panels connecting the first and second lateral panels and respectively forming the top surface and the bottom surface. The cabinet includes a rear panel connecting the first and second lateral panels. The cabinet includes a first base comprising a front panel fixed to the first lateral panel, the second lateral panel, and the upper and lower panels to define the front surface, and an inlet extending through the front panel. The cabinet includes a first chamber positioned inside the cabinet, and communicating with the inlet to provide a space for receiving clothes. The cabinet includes a second base including a front frame positioned between the front and rear panels, an upper frame extending from the front frame towards the rear panel, and first and second lateral frames.

CROSS-REFERENCES TO RELATED APPLICATIONS

This application is the National Phase of PCT International Application No. PCT/KR2019/009499, filed on Jul. 30, 2019, which claims priority under 35 U.S.C. § 119(e) to U.S. Provisional Application No. 62/711,629, filed on Jul. 30, 2018. The entire contents of the above-referenced applications are incorporated herein by reference.

TECHNICAL FIELD

The present disclosure relates to a laundry treating apparatus.

BACKGROUND

In general, a laundry treating apparatus is configured to perform various tasks related to laundry. The laundry treating apparatus conceptually includes a laundry washing machine for washing laundry, a laundry drying machine for drying wet laundry, and a refresher for removing odors or wrinkles from laundry.

A conventional laundry treating apparatus is designed to include a drum providing a space to accommodate laundry therein, a driving unit rotating the drum, and a supply unit supplying steam or hot-air to the drum. In the laundry treating apparatus of the above structure, steam or hot-air must be supplied to the laundry while the drum is rotating. Thus, the laundry input to the drum is not in a stretched state, so that wrinkles remain on the laundry.

To solve this problem, a conventional laundry treating apparatus is designed to include a cabinet, a first chamber disposed inside the cabinet to provide a space to accommodate laundry therein, a second chamber disposed inside the cabinet to provide a space separate from the first chamber, and a supply unit that is disposed in the second chamber and supplies steam or hot-air to the first chamber.

The laundry treating apparatus (as disclosed in Korean patent application publication number 10-2011-0067833) comprising the above-described structure allows the laundry to be maintained in a stretched state inside the first chamber, thereby to solve the problem of the conventional apparatus that deodorization and wrinkle removal are performed while the drum is rotated.

However, the conventional laundry treating apparatuses that supply steam and hot-air while the laundry is received in the first chamber have a disadvantage that the first chamber may not thermally insulated because a separate insulating material is not disposed between the cabinet and the first chamber. Thus, the conventional laundry treating apparatuses may have low energy efficiency.

Further, in the conventional laundry treating apparatuses, the cabinet, the first chamber, and the second chamber are fixed to a frame disposed between the cabinet and the chambers. Thus, when the laundry treating apparatus vibrates, the cabinet embodied as a metal plate amplifies vibration and noise.

Further, the conventional laundry treating apparatuses have a disadvantage of requiring a separate member to reinforce a strength of the cabinet in order to minimize vibration or noise caused by the cabinet.

SUMMARY Technical Purpose

A purpose of the present disclosure is to provide a laundry treating apparatus in which a thermal insulator is disposed in a space defined between a cabinet defining an appearance of the apparatus and a chamber providing a space to accommodate laundry therein.

Further, a purpose of the present disclosure is to provide a laundry treating apparatus in which the thermal insulator is embodied as a foam plastic inserted into the space defined between the cabinet and the chamber.

Further, a purpose of the present disclosure is to provide a laundry treating apparatus comprising a fastening structure capable of preventing leakage of the foam plastic inserted into the space defined between the cabinet and the chamber into an inside of the chamber or out of the cabinet.

Further, a purpose of the present disclosure is to provide a laundry treating apparatus in which a foam plastic is inserted into between the cabinet and the chamber to minimize vibration of the cabinet.

Technical Solution

The present disclosure provides a laundry treating apparatus including a cabinet comprising a laundry inlet defined therein; a first chamber fixed to the cabinet to provide a space to accommodate therein laundry, wherein the space communicates with the laundry inlet; a second chamber fixed to the cabinet and located under the first chamber, wherein a second chamber has a space defined therein separated from the first chamber; a supply unit disposed inside the second chamber and configured to supply at least one of air or steam to the first chamber; and a thermal insulator inserted into a foam space defined between the cabinet and the first chamber, a foam space defined between the cabinet and the second chamber, and a foam space defined between the first chamber and the second chamber. The thermal insulator may be embodied as a foam plastic. Thus, the apparatus according to the present disclosure may minimize loss of heat energy supplied to the first chamber.

Further, the thermal insulator may be disposed in the foam spaces defined between the cabinet, the first chamber, and the second chamber, thereby to minimize vibration of the cabinet or the chamber during operation of the supply unit.

The present disclosure provides a laundry treating apparatus comprising: a cabinet including: a first side panel and a second side panel opposite to each other; a top panel and a bottom panel connecting the first side panel and the second side panel to each other and defining top and bottom surfaces of the cabinet, respectively; and a rear panel connecting the first side panel and the second side panel to each other and defining a rear surface of the cabinet; a first base including: a front panel fixed to the first side panel, the second side panel, the top panel, and the bottom panel and defining a front surface of the cabinet; and a laundry inlet extending through the front panel; a first chamber fixed to the front panel and disposed inside the cabinet, wherein the first chamber has a laundry receiving space defined therein communicating with the laundry inlet; a second base including: a front frame disposed between the front panel and the rear panel; a top frame extending from the front frame toward the rear panel and spaced apart from a bottom surface of the first chamber; and a first side frame spaced apart from the first side panel, and a second side frame spaced apart from the second side panel; a second chamber defined by the front frame, the top frame, the first side frame, the second side frame, the bottom panel, and the rear panel; a supply unit disposed inside the second chamber to supply at least one of air or moisture to the first chamber; a door rotatably coupled to the cabinet or the front panel to open and close the laundry inlet; and a thermal insulator including a foam plastic inserted into a foam space defined between the cabinet, the first base, the first chamber, and the second base.

In one implementation, the foam space includes: a space defined between the first chamber and the top panel; a space defined between the first chamber and the first side panel; a space defined between the first chamber and the second side panel; a space defined between the first chamber and the rear panel; a space defined between the first chamber and the top frame; a space defined between the front panel and the front frame; a space defined between the first side frame and the first side panel; and a space defined between the second side frame and the second side panel.

In one implementation, the foam plastic includes one of polyurethane, polystyrene, and polyolefin.

In one implementation, the apparatus further comprises: a first chamber through-hole and a second chamber through-hole extending through the bottom surface of the first chamber; a first fixing hole and a second fixing hole extending through the top frame; a first flow channel defining portion connecting the first chamber through-hole and the first fixing hole to each other; and a second flow channel defining portion connecting the second chamber through-hole and the second fixing hole to each other, wherein the supply unit includes: a circulation duct disposed inside the second chamber to connect the first fixing hole and the second fixing hole to each other; a first heat exchanger for dehumidifying air introduced into the circulation duct; a second heat exchanger disposed inside the circulation duct to heat air passing through the first heat exchanger; and a fan for moving air introduced into the first fixing hole to the second fixing hole.

In one implementation, the first flow channel defining portion includes: a first flow channel body constructed to maintain a spacing between the bottom surface of the first chamber and the top frame; and a first body through-hole extending through the first flow channel body and connecting the first chamber through-hole and the first fixing hole to each other, wherein the second flow channel defining portion includes: a second flow channel body constructed to maintain a spacing between the bottom surface of the first chamber and the top frame; and a second body through-hole extending through the second flow channel body and connecting the second chamber through-hole and the second fixing hole to each other.

In one implementation, the apparatus further comprises: a first outside-air intake hole defined below the laundry inlet, and extending through the front panel; a second outside-air intake hole extending through the front frame; an outside-air guide connecting the first outside-air intake hole and the second outside-air intake hole to each other; and an outside-air duct connecting the second outside-air intake hole and the circulation duct to each other.

In one implementation, the circulation duct includes: an intake duct connected to the first fixing hole; a discharge duct connected to the second fixing hole; a connection duct for guiding air introduced into the intake duct and air supplied from the outside-air duct to the discharge duct; a first valve for opening and closing the intake duct; and a second valve for opening and closing the outside-air duct.

In one implementation, the outside-air guide includes: a guide body comprising one end fixed to the front panel and the other end fixed to the front frame to maintain a spacing between the front panel and the front frame; and a guide through-hole extending through the guide body and connecting the first outside-air intake hole and the second outside-air intake hole to each other.

In one implementation, the apparatus further comprises: a receiving groove recessed in the front panel toward the front frame; a second chamber communication hole extending through the receiving groove; a receiving-groove communication hole extending through the front frame and connected to the second chamber communication hole; a drainage tank comprising a water storage space defined therein and removably received in the receiving groove; a drainage tank through-hole extending through the drainage tank and communicating with the second chamber communication hole; a first discharge pipe coupled to the drainage tank through-hole when the drainage tank is inserted into the receiving groove, wherein the first discharge pipe is separated from the drainage tank through-hole when the drainage tank is withdrawn out of the receiving groove; and a discharge pump for supplying condensate water discharged from the first heat exchanger to the first discharge pipe.

In one implementation, the apparatus further comprises: a chamber through-hole extending through the bottom surface of the first chamber; a supply pipe through-hole extending through the top frame, wherein the supply unit includes: a steam generator installed inside the second chamber to generate steam; a spray body comprising a spray hole defined therein communicating with the chamber through-hole and a supply pipe inserted in the supply pipe through-hole; a connection pipe connecting the steam generator and the supply pipe to each other.

In one implementation, the apparatus further comprises: a receiving groove recessed in the front panel toward the front frame; a second chamber communication hole communicating with the receiving groove; a receiving-groove communication hole extending through the front frame, and communicating with the second chamber communication hole; a water supply tank comprising a water storage space defined therein and removably received in the receiving groove; a water supply tank through-hole extending through the water supply tank and communicating with the second chamber communication hole; a first supply pipe coupled to the water supply tank through-hole when the water supply tank is inserted into the receiving groove, wherein the first supply pipe is separated from the water supply tank through-hole when the water supply tank is withdrawn out of the receiving groove; and a supply pump for moving water introduced into the first supply pipe to a second supply pipe connected to the steam generator.

In one implementation, the apparatus further comprises: a control panel fixed to the door, wherein the control panel includes at least one of a display for displaying a control command or an input interface for receiving a control command; a control unit disposed inside the second chamber; a panel through-hole extending through the front panel; a frame through-hole extending through the front frame; and a wire guide for connecting the panel through-hole and the frame through-hole to each other, wherein a wire connecting the control panel and the control unit to each other is inserted into the wire guide.

In one implementation, the apparatus further comprises: a control panel fixed to the door, wherein the control panel includes at least one of a display for displaying a control command or an input interface for receiving a control command; a control unit disposed inside the second chamber; a first hinge for connecting the door to a portion of the front panel disposed above the first chamber; a second hinge for connecting the door to a portion of the front panel disposed below the first chamber; a first first-hinge mounting portion and second first-hinge mounting portion defined in a left top and a right top of the front panel, respectively; a first second-hinge mounting portion and a second second-hinge mounting portion defined in a left bottom and a right bottom of the front panel, respectively; a first panel through-hole defined below the first second-hinge mounting portion; a second panel through-hole defined below the second second-hinge mounting portion; a first frame through-hole extending through the front frame; a second frame through-hole extending through the front frame; a first wire guide for connecting the first panel through-hole and the first frame through-hole to each other, wherein a wire for connecting the control panel and the control unit to each other is inserted into the first wire guide; and a second wire guide for connecting the second panel through-hole and the second frame through-hole to each other, wherein a wire for connecting the control panel and the control unit to each other is inserted into the second wire guide.

In one implementation, the apparatus further comprises: a support frame fixed to the top panel and disposed outside the first chamber; a first support frame through-hole and a second support frame through-hole extending through the support frame; a first bar through-hole extending through a top surface of the first chamber and disposed below the first support frame through-hole; a second bar through-hole extending through a top surface of the first chamber and disposed below the second support frame through-hole; a first support body comprising a pipe shape, and connecting the first support frame through-hole and the first bar through-hole to each other, and maintaining a spacing between the support frame and the first chamber; a second support body comprising a pipe shape, and connecting the second support frame through-hole and the second bar through-hole to each other, and maintaining a spacing between the support frame and the first chamber; a first connector comprising one end fixed to the support frame, and the other end inserted into the first support body and disposed inside the first chamber; a second connector comprising one end fixed to the support frame, and the other end inserted into the second support body and disposed inside the first chamber; and a support bar comprising one end fixed to the first connector, and the other end fixed to the second connector and supporting laundry.

In one implementation, the apparatus further comprises: a driving unit disposed on the support frame to enable the support bar to reciprocate along a width direction of the first chamber; a control unit disposed inside the second chamber; and a support frame guide disposed on the support frame to guide a wire connecting the driving unit and the control unit to each other toward a space defined between the first chamber and the cabinet.

In one implementation, the driving unit includes: a motor fixed to the support frame; a vibrator that repeats alternately a rotational movement of less than 90 degrees in a clockwise direction and a rotation of less than 90 degrees in a counterclockwise direction under operation of the motor; and a power transmission for converting a rotation motion of the vibrator into a reciprocating motion of the support bar.

In one implementation, the first connector includes a first connection bar comprising a first free end rotatably coupled to the support frame, and located outside the first support frame through-hole and a second free end located inside the first chamber, wherein one end of the support bar is fixed to the second free end. The second connector includes a second connection bar comprising a first free end rotatably coupled to the support frame, and located outside the second support frame through-hole and a second free end located inside the first chamber, wherein the other end of the support bar is fixed to the second free end. The power transmission includes a transmission bar constructed to connect the first free end of the first connection bar and the first free end of the second connection bar to each other, a slot defined in the transmission bar and extending in a direction orthogonal to a direction of the reciprocation of the support bar, and a slot protrusion disposed on the vibrator and inserted into the slot.

In one implementation, the bottom panel includes: a first bottom panel comprising a front surface fixed to the front panel, a rear surface fixed to the front frame, and both side surfaces fixed to the first side panel and the second side panel, respectively; a second bottom panel comprising a front surface connected to a rear surface of the first bottom panel, and both side surfaces fixed to the first side surface and the second side surface, respectively, wherein the second bottom panel is disposed below the second base.

In one implementation, the apparatus further comprises: a first front fastener disposed on the first side panel and facing toward the front panel; a second front fastener disposed on the second side panel and facing toward the front panel; a front top-panel fastener disposed on the top panel and facing toward the front panel; a front bottom-panel fastener disposed on the first bottom panel and facing toward the front panel; a first front-panel fastener disposed on an edge of the front panel and press-fitted with the first front fastener; a second front-panel fastener disposed on an edge of the front panel and press-fitted with the second front fastener; a top front-panel fastener disposed on an edge of the front panel and press-fitted with the front top-panel fastener; and a bottom front-panel fastener disposed on an edge of the front panel and press-fitted with the front bottom-panel fastener.

In one implementation, the rear panel includes: a first rear panel coupled to the first side panel, the second side panel, the top panel, and a rear surface of the top frame; and a second rear panel detachably coupled to a rear surface of the first side frame and a rear surface of the second side frame, wherein the second rear panel is disposed below the first rear panel.

In one implementation, the apparatus further comprises: a rear top-panel fastener disposed on the top panel and facing toward the rear panel; a first rear fastener and a first bottom fastener disposed on the first side panel and facing toward the rear panel and the bottom panel, respectively; a second rear fastener and a second bottom fastener disposed on the second side panel and facing toward the rear panel and the bottom panel, respectively; a top rear-panel fastener disposed on an edge of the first rear panel and press-fitted with the rear top-panel fastener; a first rear-panel fastener disposed on an edge of the first rear panel and press-fitted with the first rear fastener; a second rear-panel fastener disposed on an edge of the first rear panel and press-fitted with the second rear fastener; a first frame rear fastener disposed in rear of the first side frame and press-fitted with the first rear fastener; a first frame bottom fastener disposed below the first side frame and press-fitted with the first bottom fastener; a second frame rear fastener disposed in rear of the second side frame and press-fitted with the second rear fastener; and a second frame bottom fastener disposed below the second side frame and press-fitted with the second bottom fastener.

In one implementation, the apparatus further comprises a foam plastic inlet extending through the first rear panel, wherein the foam plastic is injected through the foam plastic inlet.

In one implementation, the apparatus further comprises a gas discharge hole passing through the first rear panel to exhaust gas inside the cabinet, wherein a diameter of the gas discharge hole is smaller than a diameter of the foam plastic inlet.

Technical Effects

The present disclosure may include a laundry treating apparatus in which a thermal insulator is disposed in a space defined between a cabinet and a chamber withing the cabinet that provides the space.

Further, the present disclosure may include the laundry treating apparatus in which the thermal insulator may include a foam plastic inserted into the space defined between the cabinet and the chamber.

Further, the present disclosure may include the laundry treating apparatus comprising a fastening structure capable of preventing leakage of the foam plastic inserted into the space defined between the cabinet and the chamber into an inside of the chamber and/or out of the cabinet.

Further, the present disclosure may include the laundry treating apparatus in which the foam plastic is inserted into the space between the cabinet and the chamber to minimize vibration of the cabinet.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 shows an example of a laundry treating apparatus according to the present disclosure.

FIG. 2 shows an example of an air supply unit included in a laundry treating apparatus according to the present disclosure.

FIG. 3 shows an example of a moisture supply unit included in a laundry treating apparatus according to the present disclosure.

FIG. 4 and FIG. 5 show embodiments of a laundry support included in a laundry treating apparatus according to the present disclosure.

FIG. 6 shows one example of each of a cabinet, a first chamber defining structure, and a second chamber defining structure included in a laundry treating apparatus according to the present disclosure.

FIG. 7, FIG. 8, and FIG. 9 show embodiments of each of a top panel, a first side panel, a second side panel, a bottom panel, and a rear panel constituting a cabinet.

FIG. 10, FIG. 11, and FIG. 12 show one example of a first chamber defining structure.

FIG. 13 shows one example of each of a support frame, a first support body, and a second support body included in a laundry treating apparatus according to the present disclosure.

FIG. 14 shows one example of a second chamber defining structure.

FIG. 15, FIG. 16, and FIG. 17 show embodiments of a coupling structure of a cabinet, a first chamber defining structure, and a second chamber defining structure.

DETAILED DESCRIPTION

Hereinafter, a preferred embodiment of the present disclosure will be described in detail with reference to the accompanying drawings. A configuration or a control method of an apparatus to be described below is only intended for describing an embodiment of the present disclosure, and is not intended to limit a scope of the present disclosure. The same reference numerals used herein represent the same elements.

As shown in FIG. 1, a laundry treating apparatus according to the present disclosure 100 includes a cabinet 1 defining an appearance of the apparatus, and a first chamber 29 disposed inside the cabinet to provide a space to accommodate laundry therein. As shown in FIG. 2, a second chamber 39 is disposed below the first chamber and defines a space separated from the first chamber and is defined inside the cabinet. The second chamber 39 contains therein supplies 7 and 8 configured to supply at least one of moisture and air to the first chamber 29. FIG. 2 and FIG. 3 illustrate a case where both an air supply unit 7 and a moisture supply unit 8 are disposed in the second chamber 39.

As shown in FIG. 2, the air supply unit 7 may be configured to include a circulation duct 71, 72, and 74 disposed in the second chamber 39, a heat exchanger 77 that sequentially performs dehumidification and heating of air introduced into the circulation duct, and a water collector 79 that discharges condensate water generated from the heat exchanger to an outside of the second chamber 39.

The circulation duct may be configured to include an intake duct 71 constructed to communicate with the first chamber 29, a discharge duct 72 constructed to communicate with the first chamber 29, and a connection duct 74 connecting the intake duct and the discharge duct to each other.

A fan 741 is disposed at the circulation duct to sequentially move air from the first chamber 29 along the intake duct, the connection duct, and the discharge duct. FIG. 2 shows an example where the fan 741 is installed at the connection duct 74.

The heat exchanger 77 may be embodied as any device as long as the device dehumidifies the air introduced into the intake duct 71, and heats the dehumidified air. FIG. 2 shows an example where the heat exchanger 77 is embodied as a heat pump.

In other words, the heat exchanger 77 in FIG. 2 may be configured to include a refrigerant pipe 777 that defines a circulation channel of the refrigerant, a first heat exchanger 771 that is fixed to the refrigerant pipe and is disposed inside the connection duct 74, a second heat exchanger 773 which is fixed to the refrigerant pipe and disposed between the first heat exchanger 771 and the fan 741, a compressor 775 that allows the refrigerant to circulate between the two heat exchangers 771 and 773 along the refrigerant pipe, and a pressure adjuster (not shown) that controls a pressure of the refrigerant pipe. The compressor 775 and the pressure adjuster may be disposed outside the circulation duct 71, 72, and 74.

The first heat exchanger 771 may be embodied as an evaporator that transfers heat of the air flowing into the intake duct 71 to the refrigerant to cool the air and evaporate the refrigerant. In this case, the moisture contained in the air will travel along a surface of the first heat exchanger 771 and be collected on a bottom surface of the connection duct 74.

The second heat exchanger 773 may be embodied as a condenser that transfers heat of the refrigerant that has passed through the compressor 775 to the air that has passed through the first heat exchanger, thereby heating the air, and condensing the refrigerant.

As shown in FIG. 3, the circulation duct 71, 72, and 74 and the compressor 775 may be fixed to a receiving body 78 disposed inside the second chamber 39. The receiving body 78 may be configured to be withdrawn out of the second chamber 39 when a portion 14 b of a rear panel 14 defining a rear surface of the cabinet 1 is removed from the cabinet.

A user will be able to withdraw the air supply unit 7 out of the second chamber by drawing the receiving body 78 out of the second chamber 39. Thus, the receiving body 78 may facilitate inspection of the air supply unit 7. Further, the control unit 781 that controls various devices disposed in the laundry treating apparatus 100 including the heat exchanger 77 may also be disposed on the receiving body 78. In this case, the control unit 781 is preferably disposed at a position such that the control unit is exposed to an outside when the portion 14 b of the rear panel is separated from the cabinet 1.

As shown in FIG. 2, the water collector 79 may be configured to include a drainage tank 791 disposed outside the second chamber 39 to provide a space for storing water therein, a drainage tank through-hole passing through the drainage tank 791, a first discharge pipe 799 a inserted into the drainage tank through-hole, a second discharge pipe 799 b which discharges condensate water discharged from the first heat exchanger 771 to an outside of the circulation duct, and a discharge pump 799 which moves condensate water discharged into the second discharge pipe 799 b to the first discharge pipe 799 a.

The drainage tank 791 may be removably disposed on a front surface of the cabinet 1. In this case, a check valve 797 may be disposed at the drainage tank through-hole. The check valve 797 is configured to allow the first discharge pipe 799 a to be inserted into the drainage tank through-hole, but to prevent the water inside the drainage tank from being discharged through the drainage tank through-hole. Thus, when the drainage tank 791 is coupled to a front surface of the cabinet, the control unit 781 will be able to transfer the condensate water inside the circulation duct to the drainage tank 791 through the discharge pump 799.

A discharge hole 793 that discharges the condensate water stored in the drainage tank 791 is defined in one surface of the drainage tank 791. FIG. 2 illustrates an example where the discharge hole 793 is defined in a top surface of the drainage tank. The discharge hole 793 may be opened and closed by a lid 795 detachably disposed on the drainage tank.

Furthermore, the air supply unit 7 may be configured to dehumidify air in an indoor space in which the laundry treating apparatus according to the present disclosure 100 is installed. To this end, the air supply unit 7 may further include am outside-air duct 76 that communicates the circulation duct 71, 72, and 74 with an outside of the second chamber 39, a first valve 711 that controls opening and closing of the intake duct 71, and a second valve 761 that controls opening and closing of the outside-air duct 76. The first valve 711 and the second valve 761 may be configured to open or close the corresponding ducts 71 and 76, respectively, under control of the control unit 781.

The moisture supply unit 8 included in the laundry treating apparatus according to the present disclosure may be configured to supply heated water vapor (steam) to the first chamber, and may be configured to supply unheated water vapor (mist) to the first chamber. FIG. 3 shows an example where the moisture supply unit 8 is configured to supply steam generated by heating the water to the first chamber.

That is, the moisture supply unit 8 may include a steam generator 81 that is disposed in the second chamber 39 to generate steam, a steam sprayer 84 that discharges the steam supplied from the steam generator to the first chamber 29, and a water supply unit 86 to supply water to the steam generator.

The steam generator 81 may include a water storage 811 that provides a space for storing water therein, and a heater 813 configured to heat the water inside the water storage 811. The water storage 811 has a water inlet 811 a through which water flows into the storage 811 and a steam discharge hole 811 b that discharges steam inside the water storage 811. The water storage 811 may be fixed to the receiving body 78, and may be fixed to the connection duct 74.

The steam sprayer 84 may include a spray body 841 comprising one end fixed to the bottom surface 297 of the first chamber, and the other end fixed to a top surface of the second chamber 39, a supply pipe 843 to supply steam into the spray body 841, and a spray hole 847 that discharges steam in the spray body 841 into the first chamber 29. In this case, the supply pipe 843 may be connected to the steam discharge hole 811 b via a connection pipe 845.

When the circulation duct is detachably disposed in through-holes (holes communicating with the first chamber) defined in the top surface of the second chamber 39, and when the connection pipe 845 is sufficiently long, the user will be able to extend the receiving body 78 from the second chamber 39 to withdraw the air supply unit 7 and the moisture supply unit 8 out of the second chamber.

The water supply unit 86 may be configured to include a water supply tank 861 disposed outside the second chamber 39, and a supply pump 869 that supplies water stored inside the water supply tank 861 to the water storage 811.

The water supply tank 861 may be removably disposed on a front surface of the cabinet 1. In this case, the water supply tank 861 may include a water supply tank through-hole passing through the water supply tank and a check valve 867 for opening and closing the water supply tank through-hole. The water supply unit 86 may be configured to include a first supply pipe 869 a inserted into the water supply tank through-hole, a second supply pipe 869 b connected to the water inlet 811 a, and a supply pump 869 to move water flowing into the first supply pipe 869 a to the second supply pipe 869 b.

The check valve 867 is configured to open the water supply tank through-hole only when the first supply pipe 869 a is inserted into the water supply tank through-hole. Thus, when the water supply tank 861 is coupled to the front surface of the cabinet, the control unit 781 will be able to supply water to the water storage 811 through the supply pump 869.

A water supply hole 863 is defined in one surface of the water supply tank 861. FIG. 3 shows an example where the water supply hole 863 is defined in a top surface of the water supply tank. The water supply hole 863 may be opened and closed by a lid 865 that is detachably disposed on the water supply tank.

As shown in FIG. 1, the first chamber 29 may receive a laundry support to support laundry. The laundry support may be configured to include at least one of a first support 6 a and a second support 6 b.

The first support 6 a may include a support plate detachably coupled to the second chamber 29, and a support plate through-hole constructed to extend through the support plate. The second support 6 b may include a support bar 66 on which a hook H2 of a hanger H1 is detachably supported, a first connector 62 and a second connector 64 for connecting both ends of the support bar 66 to a top surface of the first chamber 29, respectively, and a driving unit 67, 68, and 69 to move the support bar 66 along a width direction (X-axis direction) of the first chamber 29.

As shown in FIG. 2, the second support 6 b may be fixed to a support frame 61 that is disposed fixedly between the top surface of the cabinet 1 and the top surface of the first chamber 29. As shown in FIG. 4, the support frame 61 may include a first support frame through-hole 611 and a second support frame through-hole 613 spaced apart from each other along a width direction (X-axis direction) of the first chamber. In this case, the first connector 62 is installed in the first support frame through-hole 611. The second connector 64 is installed in the second support frame through-hole 613. That is, the first connector 62 may be embodied as a first connection bar 623 inserted into the first support frame through-hole 611 and fixed to the support frame 61. The second connector 64 may be embodied as a second connection bar 643 inserted into the second support frame through-hole 613 and fixed to the support frame 61.

The first connection bar 623 may be rotatably coupled to a first fixed portion 621 fixed to the first support frame through-hole 611. The second connection bar 643 may be rotatably coupled to a second fixed portion 641 fixed to the second support frame through-hole 613.

In order that a bottom of the first connection bar 623 is disposed inside the first chamber 29, and a top of the first connection bar 623 is disposed above the support frame 61, the first fixed portion 621 may include a column shape with open top and bottom surfaces.

Similarly, in order that a bottom of the second connection bar 643 is disposed inside the first chamber 29, and a top of the second connection bar 643 is positioned above the support frame 61, the second fixed portion 641 may include a column shape with open top and bottom surfaces.

The support bar 66 may include one end fixed to a bottom of the first connection bar 623, and the other end fixed to a bottom of the second connection bar 643. The support bar 66 may include a hanger groove 661 defined therein in which a hook H2 of the hanger is detachably accommodated.

The driving unit 67, 68, and 69 may be configured to include a motor 67 fixed to the support frame 61, a vibrator 68 that performs alternately and repeatedly less than 90 degrees clockwise rotation and less than 90 degrees counterclockwise rotation via the motor 67, and a power transmission 69 that converts a rotation motion of the vibrator 68 into a reciprocating motion of the support bar.

The vibrator 68 includes a first casing 681 disposed above the motor 67, and a second casing 682 and a third casing 683 disposed on opposite sides of the first casing 681, respectively, and fixed to the first casing 681. As shown in (a) in FIG. 5, the first casing 681 receives therein a driving gear 684 a rotated by a rotation shaft 671 of the motor, and a first driven gear 684 b and a second driven gear 684 c respectively disposed on opposite sides of the driving gear.

A first vibration body is disposed inside the second casing 682. A second vibration body is disposed inside the third casing 683.

The first vibration body may be configured to include a first gear 685 that is disposed inside the second casing 682 and is rotated by the first driven gear 684 b, and a first weight 686 fixed to the first gear 685. Likewise, the second vibration body may be configured to include a second gear 687 that is disposed inside the third casing 683 and is rotated by the second driven gear 684 c, and a second weight 688 fixed to the second gear 687. The first weight 686 may refer to means for positioning a center of gravity of the first gear 685 at a position between a center of rotation of the first gear 685 and an edge of the first gear. The second weight 688 may refer to means for positioning a center of gravity of the second gear 687 at a position between a center of rotation of the second gear 687 and an edge of the second gear.

FIG. 5 shows an example where each of the first weight 686 and the second weight 688 has a semicircular shape. In this case, the first weight 686 and the second weight 688 should be arranged to be spaced apart from each other by 180 degrees. That is, when the first weight 686 may be fixed to the first gear 685 so as to surface toward a +X axis, while the second weight 688 may be fixed to the second gear 687 so as to surface toward a −X axis.

The power transmission 69 may include a transmission bar 691 disposed above the first casing 681 of the vibrator and connecting the first connection bar 623 and the second connection bar 643 to each other, a slot 693 defined in the transmission bar 691, and a slot protrusion 695 protruding from the first casing 681 and inserted in the slot 693. The slot 693 may extend along a Z-axis direction orthogonal to a movement direction of the support bar 66. A length of the slot 693 may be set to be equal to a displacement in the Z-axis direction of the slot protrusion 695, or may be set to be larger than the displacement in the Z-axis direction of the slot protrusion 695.

As shown in (b) in FIG. 5, in the second support 6 b with the above-described structure, when the rotation shaft 671 of the motor rotates counterclockwise, the first weight 686 and the second weight 688 are also rotated counterclockwise via the gears 684 a, 684 b, 684 c, 685, and 687. The first weight 686 and the second weight 688 are always oriented to surface toward opposite directions. Thus, when the driving gear 684 a rotates, the first casing 681 repeats alternately a less than 90 degrees clockwise rotation and a less than 90 degrees counterclockwise rotation. When the first casing 681 repeats alternately the less than 90 degrees clockwise rotation and the less than 90 degrees counterclockwise rotation, the slot protrusion 695 protruding from the first casing may reciprocate along a arc.

In one example, the length of the slot 693 is set to be larger than the Z-axis displacement of the slot protrusion 695, the transmission bar 691 will reciprocate along the X-axis direction orthogonal to a longitudinal direction of the slot 693. Because the support bar 66 disposed inside the first chamber 29 is connected to the transmission bar 691 via the first connection bar 623 and second connection bar 643, the support bar 66 will reciprocate along a width direction of the first chamber. Thus, the apparatus according to the present disclosure may shake the laundry inside the first chamber 29, and thus, dirt on the laundry may be separated from the laundry. Further, when moisture is supplied to the first chamber 29 while shaking the laundry, wrinkles on the laundry may be removed more effectively.

As shown in FIG. 6, the cabinet 1 includes a cabinet body 11 defining top surface and both side surfaces. The cabinet body 11 includes a top panel 111 defining a top surface of the laundry treating apparatus 100, and a first side panel 112 and a second side panel 113 respectively defining left and right sides of the laundry treating apparatus. The top panel 111, the first side panel 112 and the second side panel 113 may be integrated with each other or may be assembled with each other to define a single cabinet body 11. FIG. 6 illustrates one example where the top panel, the first side panel, and the second side panel are integrated with each other.

The cabinet 1 includes a bottom panel 16 which defines a bottom surface of the laundry treating apparatus 100 and which is coupled to the cabinet body 11, and a rear panel 14 which defines a rear surface of the laundry treating apparatus 100 and is coupled to the cabinet body 11.

The cabinet 1 receives therein a first chamber defining structure 2 defining the first chamber 29 and a second chamber defining structure 3 defining the second chamber 39.

The first chamber defining structure 2 includes a first base 21 fixed to the cabinet 1 and positioned on a front surface of the cabinet, a laundry inlet 22 extending through the first base and communicating with the second chamber 29, a tank receiving portion 23 disposed below the laundry inlet to provide a space to accommodate therein the drainage tank 791 and the water supply tank 861, and a first outside-air intake hole 24 defined below the tank receiving portion and connected to the outside-air duct 76.

The second chamber defining structure 3 may include a second base 31, 32, and 34 and 36 defining the second chamber 39 under the first chamber 29. In other words, the second base may include a front frame 32 disposed between the first base 21 and the rear panel 14, a top frame 31 extending from the front frame 32 toward the panel 14 and spaced from a bottom surface of the first chamber 29, a first side frame 34 fixed to the two frames 31 and 32 and spaced apart from the first side panel 112, and a second side frame 36 fixed to the two frames 31 and 32 and spaced apart from the second side panel 113. In this case, the second chamber 39 will be defined by the front frame 32, the top frame 31, the first side frame 34, the second side frame 34, the bottom panel 16, and the rear panel 14.

The rear panel 14 may include a first rear panel 14 a that defines an upper rear surface of the cabinet, and a second rear panel 14 b that is disposed under the first rear panel and defines a lower rear surface of the cabinet. The first rear panel 14 a may be constructed to be disposed in rear of the first chamber 29. The second rear panel 14 b may be constructed to define a rear surface of the second chamber 39.

The bottom panel 16 may be configured to include a first bottom panel 16 a on which legs 18 and 19 are supported, and a second bottom panel 16 b connected to the first bottom panel 16 a.

The first bottom panel 16 a may include a front surface fixed to the first base 21, a rear surface fixed to the front frame 32 of the second base, and both side surfaces respectively fixed to a bottom of the first side panel 112 and a bottom of the second side panel 113. Thus, the first bottom panel 16 a may maintain a spacing between the front panel 211 and the front frame 32.

The second bottom panel 16 b may be disposed below the second base 31, 32, 34, and 36, and may include a front surface connected to a rear surface of the first bottom panel 16 a, and both side surfaces fixed to a bottom surface of the first side frame 34 and a bottom surface of the second side frame, respectively. However, both side surfaces of the second bottom panel 16 b may be configured to be fixed to the first side panel 112 and the second side panel 113, respectively.

A first leg 18 and a second leg 19 installed on a bottom surface of an indoor room for supporting the laundry treating apparatus 100 are fixed to the first bottom panel 16 a. Rollers 168 that facilitate movement of the laundry treating apparatus may be disposed on the second bottom panel 16 b. In this case, the second chamber 39 will be defined by the front frame 32, the top frame 31, the first side frame 34, the second side frame 34, the second bottom panel 16 b, and the second rear panel 14 b.

The first leg 18 and the second leg 19 may be embodied as a structure capable of adjusting a spacing between a bottom surface of an installation space where the laundry treating apparatus is installed and the first bottom panel 16 a. A communication hole 142 may be defined in the rear panel 14 b to communicate an inside of the second chamber 39 with an outside thereof.

As shown in FIG. 7, a front top-panel fastener 114, a first front fastener 116 a, and second front fastener 118 a may be disposed in front of the top panel 111, in front of the first side panel 112, and in front of the second side panel 113, respectively. A top of the first base 21, and both sides thereof may be coupled to the cabinet 1 via the front top-panel fastener 114, the first front fastener 116 a, and the second front fastener 118 a, respectively.

A rear top-panel fastener 115, a first rear fastener 116 b, and a second rear fastener 118 b may be disposed in rear of the top panel 111, in rear of the first side panel 112, and in rear of the second side panel 113, respectively. As shown in FIG. 8, the first rear panel 14 a has a top rear-panel fastener 145 coupling to the rear top-panel fastener 115, a first rear-panel fastener 147 coupling to the first rear fastener 116 b, and a second rear-panel fastener 149 coupling to the second rear fastener 118 b. In one example, a bottom of the first rear panel 14 a is fixed to a rear surface of the top frame 31 constituting the second chamber defining structure via a bottom rear-panel fastener 148.

In one example, rear surfaces 343 and 363 of the second base 31, 32, 33, and 34 may be fixed to the cabinet 1 via the first rear fastener 116 b, and the second rear fastener 118 b. The second rear panel 14 b may be removably coupled to the rear surfaces 343 and 363 of the second base via a base fastener 146. One example of the base fastener 146 may be a bolt that secures the second rear panel 14 b to the rear surfaces 343 and 363 of the second base.

As shown in FIG. 9, a first bottom fastener 116 c and a second bottom fastener 118 c may be disposed on a bottom of the first side panel 112 and a bottom of the second side panel 113, respectively. Bottom surfaces 347 and 367 of the first bottom panel 16 a and the second base may be secured to the cabinet via the first bottom fastener 116 c and second bottom fastener 118 c, respectively.

That is, the first bottom panel 16 a includes a panel body 161, a front bottom-panel fastener 162 disposed on a front surface of the panel body 161 and coupled to a bottom of the first base 21, a front frame fastener 165 which is disposed on a rear surface of the panel body 161 and fixed to the front frame 32 of the second chamber defining structure, a first bottom-panel fastener 167 disposed on one side surface of the panel body 161 and coupling to the first bottom fastener 116 c, and a second bottom-panel fastener 169 disposed on an opposite side surface of the panel body 161 and coupling to the second bottom fastener 118 c.

One end of the second bottom panel 16 b may be connected to a panel connector 163 disposed on the panel body 161. The panel connector 163 may include a protruding plate protruding from a bottom surface of the panel body 161 and providing a space for receiving therein a front end of the second bottom panel 16 b.

As shown in FIG. 10, the first chamber defining structure 2 includes the first base 21 which is fixed to the cabinet 1 and disposed in front of the cabinet, the second chamber 29 which is fixed to the first base and provides a space to accommodate therein laundry, the laundry inlet 22 which extends through the first base and communicates with the second chamber 29, and the tank receiving portion 23 disposed on the first base and disposed below the laundry inlet, and the first outside-air intake hole 24 defined below the tank receiving portion 23 and communicating with the outside-air duct 76

The first base 21 may include the front panel 211 defining the front surface of the cabinet 1, and a top front-panel fastener 213, a first front-panel fastener 215, a second front-panel fastener 217 and a bottom front-panel fastener 219 which are arranged along an edge of the front panel.

The top front-panel fastener 213 is coupled to the front top-panel fastener 114. The first front-panel fastener 215 is coupled to the first front fastener 116 a of the cabinet. The second front-panel fastener 217 is coupled to the second front fastener 118 a of the cabinet. The bottom front-panel fastener 219 is coupled to the front bottom-panel fastener 162.

The laundry inlet 22 may be embodied as a through-hole passing through the front panel 211. As shown in FIG. 7, the second chamber 29 may include a chamber top surface 291 that is fixed to the front panel 211 and disposed at a top of the laundry inlet 22, a chamber bottom surface 297 which is fixed to the front panel 211 and disposed at a bottom of the laundry inlet 22, a first chamber side surface 293 and a second chamber side surface 295 which are fixed to the front panel 211 and connect the chamber top surface and chamber bottom surface to each other, and a chamber rear surface 298 fixed to the four surfaces 291, 293, 295, and 297.

The chamber top surface 291 may include a first bar through-hole 291 a into which the first connection bar 623 of the second support 6 b is inserted, and a second bar through-hole 291 b into which the second connection bar 643 thereof is inserted. Further, the chamber top surface 291 may include a lamp insertion hole 291 c through which a lamp 299 configured to illuminate the inside of the first chamber 29 is inserted.

As shown in FIG. 10, the chamber bottom surface 297 may include a first chamber through-hole 297 a, a second chamber through-hole 297 b, and a third chamber through-hole 297 c.

The first chamber through-hole 297 a may refer to means for supplying the air inside the first chamber 29 to the intake duct 71 disposed in the second chamber 39. The second chamber through-hole 297 b may refer to means of introducing air discharged from the discharge duct 72 disposed in the second chamber 39 into the first chamber 29. The third chamber through-hole 297 c may refer to a space where a top surface of the spray body 841 is fixedly disposed. Steam exiting the spray hole 847 may be supplied to the first chamber 29 through the third chamber through-hole 297 c.

The tank receiving portion 23 disposed under the laundry inlet 22 may include a receiving groove 231 embodied as a groove defined concavely into a surface of the front panel 211 toward the second chamber defining structure 3. The receiving groove 231 provides a space in which the drainage tank 761 and the water supply tank 861 are removably accommodated.

The receiving groove 231 may include a second chamber communication hole 233 constructed to communicate with the second chamber 39. The first discharge pipe 799 a of the air supply unit and the first supply pipe 869 a of the moisture supply unit may be respectively coupled to the tanks 791 and 861 through the second chamber communication hole 233.

As shown in FIG. 7, the second chamber communication hole 233 may be opened and closed by a communication hole cover 235 that is detachably coupled to the front panel 211. In this case, the first discharge pipe 799 a and the first supply pipe 869 a should be constructed to extend through the communication hole cover 235.

The laundry inlet 22 and the tank receiving portion 23 may be configured to be opened and closed by a door 4 rotatably coupled to at least one of the first base 21 or the cabinet 1.

As shown in FIG. 6, the door 4 is configured to open or close the laundry inlet 22 and the tank receiving portion 23 at the same time. To this end, the door 4 may include a door body 41 embodied as a structure of a shape corresponding to a shape of the front surface of the cabinet 1. The door body 41 may be rotatably fixed to the cabinet 1 or the first base 21 via a first hinge 52 and a second hinge 58.

FIG. 6 shows one example where the first hinge 52 and the second hinge 58 secure the door body 41 to the first base 21. In this case, the first hinge 52 may be disposed at a top of the laundry inlet 22, while the second hinge 58 may be disposed at a bottom of the tank receiving portion 23.

The door 4 may further include a control panel 43 that is fixed to the door body 41. The control panel 43 may include an input interface 433, 435, and 437 for receiving a control command from a user, and a display 431 displaying a control command selectable by the user and an execution process of a control command selected by the user. The input interface may include a first input interface 433 that allows the user to instruct supply of power to the laundry treating apparatus 100, a second input interface 435 that receives a control command from the user, and a third input interface 437 that receives an initiation command of the control command selected via the second input interface.

As shown in FIG. 6 and FIG. 7, the control panel 43 is connected to the control unit 781 installed in the second chamber 39 via a first wire. The first wire may include a control panel connection wire L13 connected to the control panel 43, and a first control wire L11 connecting the control unit 781 and the control panel connection wire L13 to each other. To ensure ease of assembly, the control panel connection wire L13 and the first control wire L11 may be attachable to or detachable from each other.

As shown in FIG. 6, the first hinge 52 and the second hinge 58 may be disposed on a right top and a right bottom of the front panel 211, respectively, so that the door body 41 may be configured to rotate via the rotation shaft disposed on a right side of the front panel. Alternatively, the first hinge 52 and the second hinge 58 may be disposed on a left top and a left bottom of the front panel 211, respectively, so that the door body 41 may be configured to rotate via the rotation shaft disposed on a left side of the front panel.

To this end, as shown in FIG. 10, the front panel 211 may include a first mounting portion 26 that provides a space in which the first hinge 52 is installed, and a second mounting portion 27 that provides a space in which the second hinge 58 is installed.

The first mounting portion 26 may include a groove defined concavely into the front panel 221 disposed above the laundry inlet 22 toward the rear panel 14. The second mounting portion 27 may include a groove defined concavely into the front panel 221 positioned under the receiving groove 231 toward the rear panel 14.

A first first-hinge mounting portion 261 may be disposed on a left side of the first mounting portion 26. A second first-hinge mounting portion 263 may be disposed on a right of the first mounting portion 26. The first hinge 52 may be configured to include a first hinge body 521 fixed to the first mounting portion 26, and a rotation shaft 523 coupling the door body to the first hinge body 521. The first hinge body 521 is symmetrical with respect to a horizontal line (a straight line X1 parallel to the X-axis) passing through a center of the first hinge. This is intended to ensure that the first hinge body 521 may be fixed to any one of the first first-hinge mounting portion 261 and the second first-hinge mounting portion 263.

A first second-hinge mounting portion 271 is disposed on a left side of the second mounting portion 27. A second second-hinge mounting portion 273 is disposed on a right side of the second mounting portion 27. As shown in FIG. 9, the second hinge 58 may be configured to include a second hinge body 581 that is fixed to the second mounting portion 27, and a rotation shaft 583 that couples the door body to the second hinge body 581. The second hinge body 583 is also preferably embodied to include a symmetrical shape with respect to a horizontal line X2 passing through a center of the second hinge.

According to the present disclosure, the first hinge 52 is fixedly disposed in a top space of the front panel 211. Thus, as a load on the door body 41 increases, risk of damage to the front panel 211 increases. Thus, to prevent the damage to the front panel 211 due to the load of the door body 41, the apparatus according to the present disclosure may further include a first hinge bracket 51 supporting the first hinge and a second hinge bracket 54 and 56 supporting the second hinge.

The first hinge bracket 51 may include a bracket body 511 that is fixed to the front panel 211 and disposed inside the cabinet 1, first receiving means 515 that is disposed on the bracket body to provide a space to accommodate therein the first first-hinge mounting portion 261, and second receiving means 517 disposed on the bracket body to provide a space for accommodating therein the second first-hinge mounting portion 263.

Each of the first receiving means 515 and the second receiving means 517 may include or may be embodied as a groove defined concavely in a surface of the bracket body 511 in a direction away from the first mounting portion 26.

The bracket body 511 may be secured to the first mounting portion 26 via a first hinge fixing bolt (not shown) that secures the first hinge 52 to the first mounting portion 26. That is, the first hinge fixing bolt extends through the first hinge 52 and the first mounting portion 26 and is fixed to the bracket body 511.

To facilitate coupling between the bracket body 511 and the first mounting portion 26, a first position-fixing portion 265 may be disposed on the first mounting portion 26, and a second position-fixing portion 513 fastened to the first position-fixing portion 265 may be disposed on the bracket body 511.

In one example, the first position-fixing portion 265 may be embodied as a protrusion protruding from the first mounting portion 26 toward the bracket body 511, while the second position-fixing portion 513 may be embodied as a through-hole defined in the bracket body 511 and into which the first position-fixing portion is inserted.

As shown in FIG. 9, the second hinge bracket 54 and 56 may include a first second-hinge bracket 54 connecting the first second-hinge mounting portion 271 and the first bottom panel 16 a to each other, and a second second-hinge bracket 56 a connecting the second second-hinge mounting portion 273 and the first bottom panel 16 a to each other.

The second second-hinge bracket 56 may be configured to include a second front-panel fixing plate 561 which is fixed to the front panel 211 and disposed between the second second-hinge mounting portion 273 and the front frame 32, and a second bottom-panel fixing plate 563 connecting the panel body 161 to the second front-panel fixing plate 561 Likewise, the first second-hinge bracket 54 may be configured to include a first front-panel fixing plate 541 which is fixed to the front panel 211 and positioned between the first second-hinge mounting portion 271 and front frame 32, and a first bottom-panel fixing plate 543 connecting the first front-panel fixing plate 441 and the panel body 161 to each other. The second hinge 58 may be fixed to the first front-panel fixing plate 541 via a second hinge fixing bolt (not shown) or may be fixed to the second front-panel fixing plate 561 via a second hinge fixing bolt (not shown).

When the second hinge bracket is disposed, the first leg 18 may extend through the panel body 161 and may be fixed to the first bottom-panel fixing plate 543, while the second leg 19 may extend through the panel body 161 and be fixed to the second bottom-panel fixing plate 563.

As shown in FIG. 11, the laundry treating apparatus according to the present disclosure 100 may further include a first receiving-portion cover 267 that is detachably coupled to the first mounting portion 26.

The first receiving-portion cover 267 may include a first cover body 267 a which is detachably disposed on the first mounting portion 26 to prevent the first first-hinge mounting portion 261 and the second first-hinge mounting portion 263 from being exposed to an outside, and a first hinge through-hole 267 b which extends through the first cover body 267 a and into which the first hinge 52 is inserted.

Since the first hinge 52 may be fixed to any one of the first first-hinge mounting portion 261 and the second first-hinge mounting portion 263, each of the first cover body 267 a and the first hinge through-hole 267 b should be embodied to include a symmetrical shape with respect to a horizontal line passing through a center of the first cover body 267 a and a center of the first hinge through-hole 267 b.

The first cover body 267 a may be secured to the first mounting portion 26 via a first cover fastener. The first cover fastener may include a fastening protrusion 267 d disposed on one of the first mounting portion 26 and the first cover body 267 a, and a fastening groove 267 c which is defined in the other of the first mounting portion 26 and the first cover body 267 a and into which the fastening protrusion is inserted. The fastening protrusion 267 d may include a shape such that the protrusion 267 d is press-fitted into the fastening groove 267 c.

To removably couple the door body 41 to the first cover body 267 a, the laundry treating apparatus according to the present disclosure 100 may further include a first cover magnet 267 e disposed on the first receiving-portion cover 267, and a first door magnetic body 411 (see FIG. 1) disposed on the door body 41. The first cover body 267 a may be embodied as a magnetic body made of a metal. The first door magnetic body 411 may include a permanent magnet or a metal as positioned in a region of the door body 41 onto which the first cover magnet 267 e projects.

As shown in FIG. 12, the second receiving-portion cover 277 may be disposed on the second mounting portion 27. The second receiving-portion cover 277 may include a second cover body 277 a which is detachably disposed on the second mounting portion 271 to prevent the first second-hinge mounting portion 271 and the second second-hinge mounting portion 273 from being exposed to the outside, and a second hinge through-hole 277 b which extends through the second cover body 277 a and into which the second hinge 58 is inserted.

The second cover body 277 a may be secured to the second mounting portion 27 via a second cover fastener. The second cover fastener may include a fastening protrusion 277 d disposed on one of the second mounting portion 27 and the second cover body 277 a, and a fastening groove 277 c defined in the other of the second mounting portion 27 and the second cover body 277 a so that the fastening protrusion 277 d is forcibly fitted into the groove 277 c.

In one example, the second mounting portion 27 has an outside-air first intake hole 24 that supplies outside-air to the circulation duct. Thus, the second receiving-portion cover 277 may include a cover through-hole 279 that extends through the second cover body 277 a and communicates with the first outside-air intake hole 24.

Although not shown in the drawing, each of the second cover body 277 a and the second hinge through-hole 277 b may include a symmetrical shape with respect to the horizontal line passing through a center of the second cover body 277 a, a center of the cover through-hole 279, and a center of the second hinge through-hole 277 b.

A third receiving portion 28, and a third receiving-portion cover 281 fixed to the third receiving portion 28 may be further disposed in a spaced defined by the front panel 211 and between the laundry inlet 22 and the tank receiving portion 23.

The third receiving portion 28 may be embodied as a groove defined concavely in the front panel 211. The third receiving-portion cover 281 may include a third cover body 281 a that is forcibly fitted into the third receiving portion 28. That is, the third cover body 281 a may be secured to the third receiving portion 28 via a third cover fastener embodied as a fastening protrusion 281 c that is forcibly fitted into the fastening groove 281 b. The fastening groove 281 b may be defined in one of the third cover body 281 a and the third receiving portion 28, and the fastening protrusion 281 c may protrude on the other of the third cover body 281 a and the third receiving portion 28.

To couple the door body 41 detachably to the third receiving-portion cover 281, an apparatus according to the present disclosure may further include a third cover magnet 281 d fixed to the third cover body 281 a, and a second door magnetic body 413 (see FIG. 1) disposed on the door body 41. The third cover body 281 a may be embodied as a magnetic body made of metal. The second door magnetic body 413 may include a permanent magnet or a metal positioned in a region of the door body 41 onto the third cover magnet 281 d is projected.

As shown in FIG. 13, the support frame 61 may be fixed to the cabinet 1 via a through-hole 111 a extending through the top panel 111, the first support body 91 and the second support body 92.

The through-hole 111 a may include any shape as long as the hole 111 a supports an edge of the support frame 61. The support frame 61 may be secured to the cabinet 1 via a fastener such as a bolt that extends through the support frame and is secured to the top panel 111.

The first support body 91 may be embodied as a pipe connecting the first support frame through-hole 611 extending through the support frame 61 and the first bar through-hole 291 a defined in the top surface 291 of the first chamber to each other. The second support body 92 may be embodied as a pipe connecting the second support frame through-hole 613 and the second bar through-hole 291 b to each other. Therefore, the first connection bar 623 and the second connection bar 643 may be inserted into the body through-holes defined in the first support body 91 and the second support body 92, respectively, so that one end thereof may be exposed to the first chamber 29, and the other end thereof may be disposed above the support frame 61. Further, a spacing between the support frame 61 and the first chamber top surface 291 will be maintained via the first support body 91 and the second support body 92.

In one example, the support frame 61 may further include a support frame guide 615 that guides a second wire connecting the motor 67 disposed on the second support and the control unit 781 to each other to a space defined between the first chamber 29 and the cabinet 1. The second wire may include a driving unit connection wire L33 disposed at the motor 67 and a second control wire L31 connected to the control unit 781 and disposed in the second chamber.

Furthermore, a support frame through-hole through which the lamp connection wire L53 disposed at the lamp 299 passes may be further defined in the support frame 61. The lamp connection wire L53 is connected to a third control wire L51 connected to the control unit 781. In this case, the support frame guide 615 would act as means for guiding the second wire L31 and L33 and third wire L51 and L53 to a space defined between the first chamber 29 and the cabinet 1.

FIG. 14 shows one example of the second chamber defining structure 3 included in a laundry treating apparatus according to the present disclosure. As shown in FIG. 14, the front panel 211 has a receiving-groove communication hole 321 communicating with a second chamber communication hole 233 defined in the tank receiving portion. When the receiving groove 231 is inserted into the receiving-groove communication hole 321, the second chamber communication hole 233 may be constructed to communicate with the inside of the second chamber 39. Further, the second chamber communication hole 233 and the receiving-groove communication hole 321 may be connected to each other when fixing the front panel 211 and the front frame 32 are coupled to each other via fasteners such as bolts.

Further, the front panel 211 may include a second outside-air intake hole 323 defined therein which communicates with the first outside-air intake hole 24. When the first outside-air intake hole 24 is disposed under the receiving groove 231, the second outside-air intake hole 323 may be disposed under the receiving-groove communication hole 321. The outside-air duct 76 disposed in the air supply unit is configured to connect the second outside-air intake hole 323 to the intake duct 71 or the connection duct 74.

The first outside-air intake hole 24 and the second outside-air intake hole 323 may be connected to each other via an outside-air guide 95. As shown in FIG. 9, the outside-air guide 95 may include a guide body 951 comprising one end fixed to the front panel 211 and the other end fixed to the front frame 32, and a guide through-hole 953 extending through the guide body 951 to connect the two outside-air intake holes 24 and 323 to each other. The guide body 951 may refer to means for maintaining a spacing between the front panel 211 and the front frame 32.

When the door 4 may select a position of the hinges 52 and 58 according to the user's choice, a first panel through-hole 251 and a second panel through-hole 253 may be defined in the front panel 211, and a first frame through-hole 325 and a second frame through-hole 327 may be defined in the front frame 32, as shown in FIG. 7.

The first panel through-hole 251 is defined in the front panel 211 and is adjacent to the first second-hinge mounting portion 271. The second panel through-hole 253 is defined in the front panel 211 and is adjacent to the second second-hinge mounting portion 273.

The first frame through-hole 325 may be connected to the first panel through-hole 251 via a first wire guide 96. The second frame through-hole 327 may be connected to the second panel through-hole 253 via a second wire guide 97. The first wire guide 96 and the second wire guide 97 may be embodied as pipes disposed between the front panel 211 and the front frame 32, and connecting the panel through-holes 251 and 253 to the frame through-holes 325 and 327 to each other, respectively.

Thus, when the hinges 52 and 58 are fixed to a left side of the front panel 211, the first control wire L11 and the control panel connection wire L13 will be connected to each other while being inserted into the first panel through-hole 251, the first wire guide 96, and the first frame through-hole 325. Conversely, when the hinges 52 and 58 are fixed to a right side of the front panel 211, the first control wire L11 and the control panel connection wire L13 will be connected to each other while being inserted into the second panel through-hole 253, the second wire guide 97, and the second frame through-hole 327.

When the door is constructed to be installed only on one of the left and right sides of the front panel 211, only one panel through-hole, one frame through-hole, and one wire guide may be present.

In one example, as shown in FIG. 9, in order to prevent the first second-hinge bracket 54 and the second second-hinge bracket 56 from interfering with the first wire guide 96 and second wire guide 97, a first wire guide through-hole 545 may be defined in the first second-hinge bracket 54, and a second wire guide through-hole 565 may be defined in the second second-hinge bracket 56. The second wire guide through-hole 565 may be embodied as a hole passing through the second front-panel fixing plate 561. The first wire guide through-hole 545 may be embodied as a hole passing through the first front-panel fixing plate 541.

When the door is configured to be installed only on one of the left and right sides of the front panel 211, only one panel through-hole, one frame through-hole, and one wire guide may be present.

As shown in FIG. 14, the top frame 31 may include a first fixing hole 311, a second fixing hole 313, and a supply pipe through-hole 317 defined therein. The intake duct 71 is detachably connected to the first fixing hole 311. The discharge duct 72 is detachably connected to the second fixing hole 313. The supply pipe 843 of the steam sprayer 84 is inserted into the supply pipe through-hole 317.

The first fixing hole 311 and the first chamber through-hole 297 a defined in the bottom surface of the first chamber are connected to each other via a first flow channel defining portion 93. The second fixing hole 313 and the second chamber through-hole 297 b are connected to each other via a second flow channel defining portion 94.

The first flow channel defining portion 93 may be configured to include a first flow channel body 931 constructed to maintain a spacing between the bottom surface 297 of the first chamber and the top frame 31, and a first body through-hole 933 extending through the first flow channel body 931 for connecting the first chamber through-hole 297 a and the first fixing hole 311 to each other. The second flow channel defining portion 94 may be configured to include a second flow channel body 941 constructed to maintain a spacing between the bottom surface 297 of the first chamber and the top frame 31, and a second body through-hole 943 extending through the second flow channel body 941 for connecting the second chamber through-hole 297 b and the second fixing hole 313 to each other.

The supply pipe through-hole 317 may be constructed to communicate with receiving means 315 formed by protruding the top frame 31 toward the bottom surface 297 of the first chamber. In this case, the receiving means 315 will be disposed at a top of the second chamber 39.

A free end of the supply pipe 843 may preferably include a length that the free end thereof is not exposed to an outside of the receiving means 315. When manufacturing the laundry treating apparatus 100, a device necessary for manufacturing the laundry treating apparatus may be inserted inside the second chamber 39. This is because when a length of the free end of the supply pipe 843 is larger than a height of the receiving means 315 (length thereof in a Y-axis direction), the supply pipe 843 may be damaged during manufacture of the laundry treating apparatus.

In rear of the top frame 31, a second bottom panel fastener 319 bent toward the chamber bottom surface 298 may be disposed. A bottom of the second rear panel 14 b may be fixed to the second bottom panel fastener 319 via a bolt.

The first side frame 34 and the first side panel 112 of the cabinet are kept to be spaced from each other via a first spacer 343 and 347. The second side frame 36 and the second side panel 113 are kept to be spaced from each other via a second spacer 363 and 367.

The first spacer includes a first rear-panel supporting portion 343 extending from a rear end of the first side frame 34 toward the first side panel 112, and a first bottom-panel supporting portion 347 extending from a bottom of the first side frame 34 toward the first side panel 112. The second spacer includes a second rear-panel supporting portion 363 extending from a rear end of the second side frame 36 toward the second side panel 113, and a second bottom-panel supporting portion 367 extending from a bottom of the second side frame 36 toward the second side panel 113.

The first rear-panel supporting portion 343 and the first bottom-panel supporting portion 347 may be connected to each other to form an L-shape. The second rear-panel supporting portion 363 and the second bottom-panel supporting portion 367 may be connected to each other to form an L shape. This is intended to increase a strength of the first side frame 34 and the second side frame 36.

The second rear panel 14 b may be detachably coupled to the first rear-panel supporting portion 343 and the second rear-panel supporting portion 363. The second bottom panel 16 b may be detachably coupled to the first bottom-panel supporting portion 347 and the second bottom-panel supporting portion 367.

A first frame rear fastener 344 is disposed on the first rear-panel supporting portion 343. A first frame bottom fastener 349 is disposed on the first bottom-panel supporting portion 347. The first frame rear fastener 344 may be formed by bending a free end of the first rear-panel supporting portion 343 toward the front frame 32. The first frame bottom fastener 349 may be formed by bending a free end of the first bottom-panel supporting portion 347 towards the top frame 31.

The first frame rear fastener 344 may be coupled to the first rear fastener 116 b disposed on the first side panel 112. The first frame bottom fastener 349 may be coupled to the first bottom fastener 116 c of the first side panel.

A second frame rear fastener 364 is disposed on the second rear-panel supporting portion 363. The second frame bottom fastener 369 is disposed on the second bottom-panel supporting portion 367. The second frame rear fastener 364 may be formed by bending a free end of the second rear-panel supporting portion 363 toward the front frame 32. The second frame bottom fastener 369 may be formed by bending a free end of the second bottom-panel supporting portion 367 towards the top frame 31.

The second frame rear fastener 364 may be coupled to the second rear fastener 118 b of the first side panel 112. The second frame bottom fastener 369 may be coupled to the second bottom fastener 118 c of the first side panel.

Hereinafter, referring to FIG. 15 to FIG. 17, an assembly process of the laundry treating apparatus comprising the above-described structure will be described.

As shown in FIG. 15, for assembly of the laundry treating apparatus 100 according to the present disclosure, an assembly worker first assembles the cabinet body 11 and the first chamber defining structure 2 with each other. That is, the assembly worker couples the top front-panel fastener 213 disposed on the front panel 211 to the front top-panel fastener 114 disposed on the cabinet body 11, and couples the first front-panel fastener 215 and the second front-panel fastener 217 to the first front fastener 116 a and the second front fastener 118 a respectively, such that the front panel 211 is coupled to the cabinet body 11

When the top and both sides of the front panel 211 are coupled to the top panel and both side panels of the cabinet body 11, respectively, the assembly worker couples the first bottom panel 16 a to the cabinet body 11 and the front panel 211.

As shown in FIG. 16, the first bottom panel 16 a is fixed to the cabinet body 11 when the first bottom-panel fastener 167 and the second bottom-panel fastener 169 disposed on both side surfaces of the panel body 161, respectively are coupled to the first bottom fastener 116 c and the second bottom fastener 118 c disposed on the bottom surfaces of the side panels 112 and 113, respectively.

In one example, in front of the panel body 161, the front bottom-panel fastener 162 is disposed which is coupled to the bottom front-panel fastener 219 disposed on a bottom of the front panel 211. Thus, the first bottom panel 16 a is fixed to a bottom of the front panel 211 via the front bottom-panel fastener 162 and the bottom front-panel fastener 219 (see FIG. 9).

When the first bottom panel 16 a is fixed to the bottom of the front panel 211, the assembly worker may assemble the second chamber defining structure 3 with the cabinet body 11.

As shown in FIG. 16, the assembly worker couples the first frame rear fastener 344 disposed on the rear surface of the second chamber defining structure 3 to the first rear fastener 116 b defined on the rear surface of the first side panel, and couples the second frame rear fastener 364 disposed on the rear surface of the second chamber defining structure 3 to the second rear fastener 118 b defined on the rear surface of the second side panel.

Further, the assembly worker may couple the first frame bottom fastener 349 and the second frame bottom fastener 369 disposed on the bottom surface of the second chamber defining structure 3 to the first bottom fastener 116 c and the second bottom fastener 118 c disposed on the bottom surfaces of the side panels, respectively.

When the cabinet body 11, the first chamber defining structure 2, the second chamber defining structure 3, and the bottom panel 16 are assembled with each other, the assembly worker fixes the second bottom panel 16 b to the bottom surface of the second chamber defining structure 3. The second bottom panel 16 b may be fixed to the first bottom-panel supporting portion 347 and the second bottom-panel supporting portion 367 of the second chamber defining structure via bolts or the like.

The assembly worker may then couple the first rear panel 14 a to the cabinet body 11. As shown in FIG. 15, the first rear panel 14 a may be coupled to the cabinet body 11 via the top rear-panel fastener 145, the first rear-panel fastener 147, and the second rear-panel fastener 149.

That is, when the top rear-panel fastener 145 is coupled to the rear top-panel fastener 115 of the cabinet body, the first rear-panel fastener 147 is coupled to the first rear fastener 116 b, and the second rear-panel fastener 149 is coupled to the second rear fastener 118 b, the first rear panel 14 a will be fixed to the cabinet body 11. Further, the bottom of the first rear panel 14 a is fixed to the second bottom panel fastener 319 disposed on the rear surface of the top frame 31.

When the assembly of the first rear panel 14 a is completed, the assembly worker fixes the second rear panel 14 b to the second chamber defining structure 3. As shown in FIG. 16, the second rear panel 14 b may be fixed to the first rear-panel supporting portion 343 and the second rear-panel supporting portion 363 via bolts.

As shown in FIG. 15, in the above-described process, a top space S1 is defined between the top panel 111 and the chamber top surface 291. A first side space S2 is defined between the first side panel 112 and the first chamber side surface 293. A second side space S3 is defined between the second side panel 113 and the second chamber side surface 2395. A rear space S4 is defined between the first rear panel 14 a and chamber rear surface 298. The top space S1, the first side space S2, the second side space S3, and the rear space S4 communicate with each other.

As shown in FIG. 16, a first connection space S5 connected to the first side space S2 is defined between the first side panel 112 and the first side frame 32. A second connection space S6 connected to the second side space is defined between the second side panel 113 and the second side frame 36. A front space S7 is defined between the front panel 11 and the front frame 31.

Further, a third connection space S8 (see FIG. 3) is defined by the top frame 31, the chamber bottom surface 297 of the first chamber, the first side panel 112, the second side panel 113, and the first rear panel 14 a. A front surface of the third connection space S8 is connected to the front space S7. Both side surfaces of the third connection space S8 are connected to the first connection space S5 and the second connection space S6, respectively. A rear surface of the third connection space S8 is connected to the rear space S4.

The first connection space S5, the second connection space S6, the third connection space, and the front space S7 communicate with each other. Therefore, the spaces S1, S2, S3, S4, S5, S6, S7, and S8 defined between the cabinet 1, the first chamber 29 and the second chamber defining structure 3 may be connected to each other to form a single space.

In order to supply foam plastic to the foam spaces S1, S2, S3, S4, S5, S6, S7, and S8, a foam plastic inlet may be defined in the first rear panel 14 a. As shown in FIG. 17, the foam plastic inlet may include a first foam plastic inlet 141 extending through the first rear panel 14 a and communicating with the first side space S2, and a second foam plastic inlet 142 extending through the first rear panel 14 a and communicating with the second side space S3.

Each of the first foam plastic inlet 141 and the second foam plastic inlet 142 may be embodied as a through-hole connected to an edge of the first rear panel 14 a. The foam plastic injected through the first foam plastic inlet 141 and the second foam plastic inlet 142 may flow along the first chamber side surface 293 and second chamber side surface 295 a and toward the bottom of the first side space S2 and the second side space S3. That is, a projection surface of the first rear panel 14 a onto which the chamber rear surface 298 projects may be defined to interfere with the first foam plastic inlet 141 and the second foam plastic inlet 142.

The foam plastic means a synthetic resin comprising a porous structure. The porous structure of the synthetic resin may be achieved using a foaming agent. The foam plastic may be a functional composite material that imparts light weight, cushioning, sound insulation, thermal insulation, etc. The synthetic resin used as a raw material for the foam plastic may be one of polyurethane, polystyrene, polyolefin and polyolefin. In addition to the synthetic resins described above, phenolic resins, polyvinyl chloride, urea resins, silicone, polyimide and melamine resin may be used for the foam plastic.

In order to convert polyurethane into a foam form, the foaming agent incorporated into the polyurethane resin may be classified into a chemical foaming agent and a physical foaming agent. The chemical foaming agent forms bubbles via chemical reactions. The physical foaming agent forms bubbles via change in a physical state of a compressed gas or a phase change of liquid (evaporation).

A multiple of gas discharge holes 143 may be further defined in the first rear panel 14 a. When a liquid foam plastic is injected into the spaces S1, S2, S3, S4, S5, S6, S7, and S8 through the first foam plastic inlet 141 and the second foam plastic inlet 142, the spaces will be filled with gas generated from a process of solidifying the foam plastic. The gas discharge hole 143 may refer to means for discharging the air and the gas from the spaces to the outside of the cabinet 1. According to the present disclosure, the gas discharge hole 143 may prevent the cabinet body 11 from being expanded or destroyed by the gas. A diameter of the gas discharge hole 143 is preferably set to be smaller than a diameter of each of the foam plastic inlets 141 and 142. This is intended to minimize leakage of the foam plastic through the gas discharge holes.

In one example, the holes defined in a top surface of the first chamber 29 and the holes defined in the support frame 61 are connected to each other via the first support body 91 and the second support body 92. Thus, the foam plastic supplied to the top space Si will not leak into an inside of the first chamber 29 or out of the cabinet 1.

Further, since the foam plastic inserted into the top space S1 will serve to secure the first hinge bracket 51 inside the cabinet 1, the apparatus according to the present disclosure may prevent damage to the first chamber defining structure 2 due to the load of the door body 41.

The holes defined in the first chamber 29 and the holes defined in the second chamber 39 are connected to each other via the first flow channel defining portion 93, the second flow channel defining portion 94, and the spray body 841. Thus, the foam plastic injected into the third connection space S8 will not leak into the first chamber 29 or the second chamber 39.

Further, the holes defined in the front panel 211 and the holes defined in the front frame 32 are connected to each other via the outside-air guide 95 and the wire guides 96 and 97. Thus, the foam plastic injected into the front space S7 will not leak into the second chamber 39 and out of the cabinet 1.

Since the foam plastic injected into the front space S7 will serve to secure the second hinge brackets 54 and 56 inside the cabinet 1, the apparatus according to the present disclosure may prevent damage to the first chamber defining structure 2 due to the load of the door body 41.

As shown in FIG. 2, when the foam plastic is solidified inside the foam spaces S1, S2, S3, S4, S5, S6, S7, and S8, the top panel 111 and the chamber top surface 291 are fixed to each other via the foam plastic, and the first side panel 112 and the second side panel 113 are fixed to the first chamber side surface 293 and the second chamber side surface 295, respectively, and the first rear panel 14 a is fixed to the chamber rear surface 298. Further, the chamber bottom surface 297 is fixed to the top frame 31, the front panel 211 is fixed to the front frame 32, and the first side frame 34 and the second side frame 36 are fixed to the first side panel 112 and the second side panel 113, respectively.

In the laundry treating apparatus 100 according to the present disclosure, the foam spaces S1, S2, S3, S4, S5, S6, S7, and S8 defined between the cabinet 1, the first chamber defining structure 2, and the second chamber defining structure 3 are filled with the foam plastic, such that the vibration of the cabinet 1 when the air supply unit 7, the moisture supply unit 8 and the second support 6 b are operating may be minimized.

Further, in the laundry treating apparatus 100 according to the present disclosure, because a thermal insulator F as the foam plastic inserted into the foam spaces surrounds the first chamber 29, thereby to minimize loss of heat energy supplied to the first chamber 29.

As long as the foam plastic inserted into the foam spaces S1, S2, S3, S4, S5, S6, S7, and S8 defined between the cabinet 1, the first chamber defining structure 2, and the second chamber defining structure 3 is prevented from leakage to an outside of the cabinet, a coupling structures of the fasteners may be implemented in various ways.

FIG. 15 to FIG. 17 show an example where the fasteners are press-fitted with each other.

As shown in FIG. 15, the top front-panel fastener 213 may be press-fitted into the front top-panel fastener 114. the first front-panel fastener 215 may be press-fitted into the first front fastener 116 a. The second front-panel fastener 217 may be press-fitted into the second front fastener 118 a.

Each of the top front-panel fastener 213, the first front-panel fastener 215, and the second front-panel fastener 217 may be embodied as a fastening plate protruding from each corner of the front panel. Each fastening plate disposed on the front panel may include a shape comprising a plurality of bending points.

The front top-panel fastener 114 may include a front surface defining portion that is bent from a front edge of the top panel 111 toward the laundry inlet 22 to define a portion of a front surface of the cabinet, a bent portion bent from a free end of the front surface defining portion toward the top panel 111, and a groove defining portion that is bent from a free end of the bent portion toward the chamber top surface 291 to define a groove into which the top front-panel fastener 213 is inserted.

The first front fastener 116 a may include a front surface defining portion that is bent from a front edge of the first side panel 112 toward the laundry inlet 22 to define a portion of the front surface of the cabinet 1, a bent portion bent from a free end of the front surface defining portion toward the first side panel 112, and a groove defining portion that is bent from a free end of the bent portion toward the first chamber side surface 293 to define a groove into which the first front-panel fastener 215 is inserted.

The second front fastener 118 a may include a front surface defining portion that is bent from a front edge of the second side panel 113 toward the laundry inlet 22 to define a portion of the front surface of the cabinet 1, a bent portion bent from a free end of the front surface defining portion toward the second side panel 113, and a groove defining portion bent from a free end of the bent portion toward the second chamber side surface 295 to define a groove into which the second front-panel fastener 217 is inserted.

As shown in FIG. 9, the bottom front-panel fastener 219 may be constructed to be press-fitted into the front bottom-panel fastener 162. In this case, the bottom front-panel fastener 219 is embodied as a fastening plate extending from a bottom of the front panel 211, and comprising a plurality of bending points. The front bottom-panel fastener 162 may be constructed to define a groove into which the bottom front-panel fastener 219 is inserted.

That is, the front bottom-panel fastener 162 may include a front surface defining portion that is bent from a front edge of the panel body 161 toward the front panel 211 to define a portion of the front surface of the cabinet, a bent portion bent from a free end of the front surface defining portion toward the panel body 161, and a groove defining portion that is bent from an edge of the bent portion toward the front panel 211 to define a groove into which the bottom front-panel fastener 219 is inserted.

As shown in FIG. 15, the top rear-panel fastener 145, the first rear-panel fastener 147 and the second rear-panel fastener 149 disposed on the first rear panel 14 a may be constructed to be press-fitted into the rear top-panel fastener 115, the first rear fastener 116 b, and the second rear fastener 118 b, respectively.

The top rear-panel fastener 145 may be embodied as a fastening plate bent from a top of the first rear panel 14 a toward the chamber rear surface 298. The first rear-panel fastener 147 and the second rear-panel fastener 149 may be embodied as fastening plates bent from left and right ends of the first rear panel 14 a toward the chamber rear surface 298, respectively. The fastening plate disposed on each rear panel may include a plurality of bending points.

The rear top-panel fastener 115 may include a rear surface defining portion formed by bending a rear edge of the top panel toward the bottom panel 16 to define a portion of the rear surface of the cabinet 1, a bent portion bent from a free end of the rear surface defining portion toward the chamber rear surface, and a groove defining portion that is bent from a free end of the bent portion toward the first rear panel 14 a to define a groove into which the top rear-panel fastener 145 is inserted.

The first rear fastener 116 b may include a rear surface defining portion formed by bending a rear edge of the first side panel 112 toward the second side panel 113 to define a portion of the rear surface of cabinet 1, a bent portion bent from a free end of the rear surface defining portion toward the front surface of the cabinet, and a groove defining portion that is bent from a free end of the bent portion toward the first rear panel 14 a to define a groove into which the first rear-panel fastener 147 is inserted.

The second rear fastener 118 b may include a rear surface defining portion formed by bending a rear edge of the second side panel 113 toward the first side panel 112 to define a portion of the rear surface of cabinet 1, a bent portion bent from a free end of the rear surface defining portion toward the front surface of the cabinet, and a groove defining portion that is bent from a free end of the bent portion toward the first rear panel 14 a to define a groove into which the second rear-panel fastener 149 is inserted.

As shown in FIG. 16, the first bottom-panel fastener 167 and the second bottom-panel fastener 169 disposed on opposite sides of the first bottom panel 16 a, respectively may be constructed to be press-fitted into the first bottom fastener 116 c and second bottom fastener 118 c, respectively.

The first bottom-panel fastener 167 may be embodied as a fastening plate bent upward from one end of the panel body 161. The second bottom-panel fastener 169 may be embodied as a fastening plate bent upward from the other end of the panel body 161. Each fastening plate disposed on the first bottom panel may include a plurality of bending points.

The first bottom fastener 116 c may include a bottom surface defining portion formed by bending a bottom of the first side panel 112 toward the second side panel 113 to define a portion of the bottom surface of the cabinet, a bent portion bent from a free end of the bottom surface defining portion toward the top panel 111, and a groove defining portion that is bent from a free end of the bent portion toward the panel body 161 to define a groove into which the first bottom-panel fastener 167 is forcibly fitted

The second bottom fastener 118 c may include a bottom surface defining portion formed by bending a bottom of the second side panel 113 toward the first side panel 112 to define a portion of the bottom surface of the cabinet, a bent portion bent from a free end of the bottom surface defining portion toward the top panel 111, and a groove defining portion that is bent from a free end of the bent portion toward the panel body 161 to define a groove into which the second bottom-panel fastener 169 is forcibly fitted.

In one example, the first frame bottom fastener 349 disposed on the first side frame 34 and the second frame bottom fastener 369 disposed on the second side frame 36 may be constructed to be press-fitted into the second bottom fastener 116 c and the second bottom fastener 118 c, respectively. The first frame bottom fastener 349 may be embodied as a fastening plate formed by bending a free end of the first bottom-panel supporting portion 347 toward the first bottom fastener 116 c. The second frame bottom fastener 369 may be embodied as a fastening plate formed by bending a free end of the second bottom-panel supporting portion 367 toward the second bottom fastener 118 c. Each fastening plate disposed on a bottom surface of the second chamber defining structure may include a plurality of bending points.

The first frame rear fastener 344 and second frame rear fastener 364 may be constructed to be press-fitted into to the first bottom fastener 116 c and the second bottom fastener 118 c, respectively. The first frame rear fastener 344 may be embodied as a fastening plate formed by bending a free end of the first rear-panel supporting portion 343 toward the first rear fastener 116 b. The second frame rear fastener 364 may be embodied as a fastening plate formed by bending a free end of the second rear-panel supporting portion 363 toward the second rear fastener 118 b. Each fastening plate disposed on a rear surface of the second chamber defining structure may include a plurality of bending points.

As shown in FIG. 7, the laundry treating apparatus 100 according to the present disclosure may further include a first reinforcing frame 112 a and a second reinforcing frame 113 a respectively disposed in a space defined between the first side frame 34 and the first side panel 112, and a space defined between the second side frame 36 and the first side panel 113

A thickness of the first connection space S5 (see FIG. 16) defined between the first side frame 34 and the first side panel 112 may be smaller than a thickness of the second space S2 (refer to FIG. 15) defined between the first chamber side surface 293 and the first side panel 112. The first reinforcing frame 112 a may refer to means for increasing a strength of the first connection space S5.

Further, a thickness of the second connection space S6 (see FIG. 16) defined between the second side frame 36 and the second side panel 113 may be smaller than that of the third space S3 defined between the second chamber side surface 295 and the second side panel 113. Therefore, the second reinforcing frame 113 a may refer to means for increasing a strength of the second connection space S6.

The first reinforcing frame 112 a may be embodied as an L-shaped bar fixed to a rear corner of a bottom of the first side panel 112. The second reinforcing frame 113 a may be embodied as an L-shaped bar fixed to a rear corner of a bottom of the second side panel 113.

Furthermore, in order to increase a strength of the third connection space S8 (see FIG. 3) defined between the chamber bottom surface 297 and the top frame 31, a plurality of ribs may be further disposed in the second chamber defining structure 3.

As shown in FIG. 14, the ribs may include a first top rib 381 and a second top rib 383 disposed on opposite sides of the top frame 31, respectively. The first top rib 381 may be embodied as a plate protruding from a top of the first side frame 34 toward the chamber bottom surface 297. The second top rib 383 may be embodied as a plate extending from a top of the second side frame 36 toward the chamber bottom surface 297.

Further, the ribs may further include a first side rib 385 and a second side rib 387 disposed on both sides of the front frame 32, respectively. The first side rib 385 may be embodied as a plate protruding from a front end of the first side frame 34 toward the front panel 211. The second front rib 387 may be embodied as a plate extending from a front end of the second side frame 36 toward the front panel 211.

When the foam plastic flowing into the third connection space S8 is solidified, the aforementioned ribs 381, 383, 385, and 387 will increase a coupling force between the chamber bottom surface 297 and the second chamber defining structure 3. Thus, according to the present disclosure, the ribs may increase a strength of the third connection space.

Further, the ribs 381, 383, 385, and 387 will also serve to guide a liquid foam plastic flowing into the rear space S4 to the third connection space S8 and the front space S7.

As shown in FIG. 8, in order to prevent inflow of contaminants such as water into the control unit 781, the receiving body 78 may further include a control unit housing 783 which provides a space for accommodating therein the control unit 781, and has a shape open toward the second rear panel 14 a.

The present disclosure may be modified and embodied in various forms, and a scope of a right thereof is not limited to the above-described embodiments. Therefore, when the modified embodiment includes elements of following claims, the modified embodiment should be considered to belong to a scope of the present disclosure. 

What is claimed is:
 1. A laundry treating apparatus comprising: a cabinet comprising: a first side panel and a second side panel opposite to each other; a top panel and a bottom panel connecting the first side panel and the second side panel to each other, and defining top and bottom surfaces of the cabinet, respectively; and a rear panel connecting the first side panel and the second side panel to each other, and defining a rear surface of the cabinet; a first base comprising: a front panel fixed to the first side panel, the second side panel, the top panel, and the bottom panel, and defining a front surface of the cabinet; and a laundry inlet extending through the front panel; a first chamber fixed to the front panel and disposed inside the cabinet, wherein the first chamber has a laundry receiving space defined therein communicating with the laundry inlet; a second base comprising: a front frame disposed between the front panel and the rear panel; a top frame extending from the front frame toward the rear panel, and spaced apart from a bottom surface of the first chamber; a first side frame spaced apart from the first side panel; and a second side frame spaced apart from the second side panel; a second chamber defined by the front frame, the top frame, the first side frame, the second side frame, the bottom panel, and the rear panel; a supply unit disposed inside the second chamber to supply at least one of air or moisture to the first chamber; a door rotatably coupled to the cabinet or the front panel to open and close the laundry inlet; and a thermal insulator including a foam plastic inserted into a foam space defined between the cabinet, the first base, the first chamber, and the second base.
 2. The apparatus of claim 1, wherein the foam space includes: a space defined between the first chamber and the top panel; a space defined between the first chamber and the first side panel; a space defined between the first chamber and the second side panel; a space defined between the first chamber and the rear panel; a space defined between the first chamber and the top frame; a space defined between the front panel and the front frame; a space defined between the first side frame and the first side panel; and a space defined between the second side frame and the second side panel.
 3. The apparatus of claim 2, wherein the foam plastic includes one of polyurethane, polystyrene, and polyolefin.
 4. The apparatus of claim 2, wherein the apparatus further comprises: a first chamber through-hole and a second chamber through-hole extending through the bottom surface of the first chamber; a first fixing hole and a second fixing hole extending through the top frame; a first flow channel defining portion connecting the first chamber through-hole and the first fixing hole to each other; and a second flow channel defining portion connecting the second chamber through-hole and the second fixing hole to each other, wherein the supply unit includes: a circulation duct disposed inside the second chamber to connect the first fixing hole and the second fixing hole to each other; a first heat exchanger for dehumidifying air introduced into the circulation duct; a second heat exchanger disposed inside the circulation duct to heat air passing through the first heat exchanger; and a fan for moving air introduced into the first fixing hole to the second fixing hole.
 5. The apparatus of claim 4, wherein the first flow channel defining portion includes: a first flow channel body constructed to maintain a spacing between the bottom surface of the first chamber and the top frame; and a first body through-hole extending through the first flow channel body and connecting the first chamber through-hole and the first fixing hole to each other, wherein the second flow channel defining portion includes: a second flow channel body constructed to maintain a spacing between the bottom surface of the first chamber and the top frame; and a second body through-hole extending through the second flow channel body and connecting the second chamber through-hole and the second fixing hole to each other.
 6. The apparatus of claim 4, wherein the apparatus further comprises: a first outside-air intake hole defined below the laundry inlet, and extending through the front panel; a second outside-air intake hole extending through the front frame; an outside-air guide connecting the first outside-air intake hole and the second outside-air intake hole to each other; and an outside-air duct connecting the second outside-air intake hole and the circulation duct to each other.
 7. The apparatus of claim 6, wherein the circulation duct includes: an intake duct connected to the first fixing hole; a discharge duct connected to the second fixing hole; a connection duct for guiding air introduced into the intake duct and air supplied from the outside-air duct to the discharge duct; a first valve for opening and closing the intake duct; and a second valve for opening and closing the outside-air duct.
 8. The apparatus of claim 6, wherein the outside-air guide includes: a guide body comprising one end fixed to the front panel and the other end fixed to the front frame to maintain a spacing between the front panel and the front frame; and a guide through-hole extending through the guide body and connecting the first outside-air intake hole and the second outside-air intake hole to each other.
 9. The apparatus of claim 4, wherein the apparatus further comprises: a receiving groove recessed in the front panel toward the front frame; a second chamber communication hole extending through the receiving groove; a receiving-groove communication hole extending through the front frame and connected to the second chamber communication hole; a drainage tank comprising a water storage space defined therein and removably received in the receiving groove; a drainage tank through-hole extending through the drainage tank and communicating with the second chamber communication hole; a first discharge pipe coupled to the drainage tank through-hole when the drainage tank is inserted into the receiving groove, wherein the first discharge pipe is separated from the drainage tank through-hole when the drainage tank is withdrawn out of the receiving groove; and a discharge pump for supplying condensate water discharged from the first heat exchanger to the first discharge pipe.
 10. The apparatus of claim 2, wherein the apparatus further comprises: a chamber through-hole extending through the bottom surface of the first chamber; a supply pipe through-hole extending through the top frame, wherein the supply unit includes: a steam generator installed inside the second chamber to generate steam; a spray body comprising a spray hole defined therein communicating with the chamber through-hole and a supply pipe inserted in the supply pipe through-hole; and a connection pipe connecting the steam generator and the supply pipe to each other.
 11. The apparatus of claim 8, wherein the apparatus further comprises: a receiving groove recessed in the front panel toward the front frame; a second chamber communication hole communicating with the receiving groove; a receiving-groove communication hole extending through the front frame, and communicating with the second chamber communication hole; a water supply tank comprising a water storage space defined therein and removably received in the receiving groove; a water supply tank through-hole extending through the water supply tank and communicating with the second chamber communication hole; a first supply pipe coupled to the water supply tank through-hole when the water supply tank is inserted into the receiving groove, wherein the first supply pipe is separated from the water supply tank through-hole when the water supply tank is withdrawn out of the receiving groove; and a supply pump for moving water introduced into the first supply pipe to a second supply pipe connected to the steam generator.
 12. The apparatus of claim 2, wherein the apparatus further comprises: a control panel fixed to the door, wherein the control panel includes at least one of a display for displaying a control command or an input interface for receiving a control command; a control unit disposed inside the second chamber; a panel through-hole extending through the front panel; a frame through-hole extending through the front frame; and a wire guide for connecting the panel through-hole and the frame through-hole to each other, wherein a wire connecting the control panel and the control unit to each other is inserted into the wire guide.
 13. The apparatus of claim 2, wherein the apparatus further comprises: a control panel fixed to the door, wherein the control panel includes at least one of a display for displaying a control command or an input interface for receiving a control command; a control unit disposed inside the second chamber; a first hinge for connecting the door to a portion of the front panel disposed above the first chamber; a second hinge for connecting the door to a portion of the front panel disposed below the first chamber; a first first-hinge mounting portion and a second first-hinge mounting portion defined in a left top and a right top of the front panel, respectively; a first second-hinge mounting portion and a second second-hinge mounting portion defined in a left bottom and a right bottom of the front panel, respectively; a first panel through-hole defined below the first second-hinge mounting portion; a second panel through-hole defined below the second second-hinge mounting portion; a first frame through-hole extending through the front frame; a second frame through-hole extending through the front frame; a first wire guide for connecting the first panel through-hole and the first frame through-hole to each other, wherein a wire for connecting the control panel and the control unit to each other is inserted into the first wire guide; and a second wire guide for connecting the second panel through-hole and the second frame through-hole to each other, wherein a wire for connecting the control panel and the control unit to each other is inserted into the second wire guide.
 14. The apparatus of claim 2, wherein the apparatus further comprises: a support frame fixed to the top panel and disposed outside the first chamber; a first support frame through-hole and a second support frame through-hole extending through the support frame; a first bar through-hole extending through a top surface of the first chamber and disposed below the first support frame through-hole; a second bar through-hole extending through a top surface of the first chamber and disposed below the second support frame through-hole; a first support body comprising a pipe shape, and connecting the first support frame through-hole and the first bar through-hole to each other, and maintaining a spacing between the support frame and the first chamber; a second support body comprising a pipe shape, and connecting the second support frame through-hole and the second bar through-hole to each other, and maintaining a spacing between the support frame and the first chamber; a first connector comprising one end fixed to the support frame, and the other end inserted into the first support body and disposed inside the first chamber; a second connector comprising one end fixed to the support frame, and the other end inserted into the second support body and disposed inside the first chamber; and a support bar comprising one end fixed to the first connector, and the other end fixed to the second connector and supporting laundry.
 15. The apparatus of claim 14, wherein the apparatus further comprises: a driving unit disposed on the support frame to enable the support bar to reciprocate along a width direction of the first chamber; a control unit disposed inside the second chamber; and a support frame guide disposed on the support frame to guide a wire connecting the driving unit and the control unit to each other toward a space defined between the first chamber and the cabinet.
 16. The apparatus of claim 2, wherein the bottom panel includes: a first bottom panel comprising a front surface fixed to the front panel, a rear surface fixed to the front frame, and both side surfaces fixed to the first side panel and the second side panel, respectively; a second bottom panel comprising a front surface connected to a rear surface of the first bottom panel, and both side surfaces fixed to the first side surface and the second side surface, respectively, wherein the second bottom panel is disposed below the second base.
 17. The apparatus of claim 16, wherein the apparatus further comprises: a first front fastener disposed on the first side panel and facing toward the front panel; a second front fastener disposed on the second side panel and facing toward the front panel; a front top-panel fastener disposed on the top panel and facing toward the front panel; a front bottom-panel fastener disposed on the first bottom panel and facing toward the front panel; a first front-panel fastener disposed on an edge of the front panel and press-fitted with the first front fastener; a second front-panel fastener disposed on an edge of the front panel and press-fitted with the second front fastener; a top front-panel fastener disposed on an edge of the front panel and press-fitted with the front top-panel fastener; and a bottom front-panel fastener disposed on an edge of the front panel and press-fitted with the front bottom-panel fastener.
 18. The apparatus of claim 17, wherein the rear panel includes: a first rear panel coupled to the first side panel, the second side panel, the top panel, and a rear surface of the top frame; and a second rear panel detachably coupled to a rear surface of the first side frame and a rear surface of the second side frame, wherein the second rear panel is disposed below the first rear panel.
 19. The apparatus of claim 18, wherein the apparatus further comprises: a rear top-panel fastener disposed on the top panel and facing toward the rear panel; a first rear fastener and a first bottom fastener disposed on the first side panel and facing toward the rear panel and the bottom panel, respectively; a second rear fastener and a second bottom fastener disposed on the second side panel and facing toward the rear panel and the bottom panel, respectively; a top rear-panel fastener disposed on an edge of the first rear panel and press-fitted with the rear top-panel fastener; a first rear-panel fastener disposed on an edge of the first rear panel and press-fitted with the first rear fastener; a second rear-panel fastener disposed on an edge of the first rear panel and press-fitted with the second rear fastener; a first frame rear fastener disposed in rear of the first side frame and press-fitted with the first rear fastener; a first frame bottom fastener disposed below the first side frame and press-fitted with the first bottom fastener; a second frame rear fastener disposed in rear of the second side frame and press-fitted with the second rear fastener; and a second frame bottom fastener disposed below the second side frame and press-fitted with the second bottom fastener.
 20. The apparatus of claim 19, wherein the apparatus further comprises a foam plastic inlet extending through the first rear panel, wherein the foam plastic is injected through the foam plastic inlet. 